CN203557181U - Double-axis numerical control machining tool - Google Patents

Abstract

A double-axis numerical control machining tool comprises a base table, columns, a sliding table, a working box, a machining table and a digital control device, wherein the perpendicularly extending columns are arranged at two ends of the base table respectively; two first sliding tracks which are horizontally arranged in parallel are connected onto the two columns; first sliding chutes which can slide along the first sliding tracks are arranged on the back side of the sliding table; two second sliding tracks which are vertically arranged in parallel are arranged on the front side of the sliding table; second sliding chutes which can slide along the second sliding tracks are arranged on the back side of the working box; two insertion grooves which extends in parallel by being perpendicular to the first sliding tracks are formed in the upper surface of the base table; the machining table comprises a rotary table and a workpiece clamp; and insertion strips which can slide along the insertion grooves are arranged at the bottom of the rotary table. According to the double-axis numerical control machining tool, three-axis processing is realized, and the use is convenient; and the structure is relatively simple, the efficiency is improved, and the cost is reduced.

Description

Twin shaft numerical control machine for processing

Technical field

The utility model relates to a kind of twin shaft numerical control machine for processing.

Background technology

Along with expanding economy, the demand of manufacturing industry constantly increases, and in order to raise the efficiency and to reduce costs, application lathe has been machined to better selection, and manufactures efficiency and product effect in order further to improve, and needs the introduction of digital control processing.

For this reason, designer of the present utility model is because above-mentioned defect, by concentrating on studies and designing, is comprehensively engaged in for a long time experience and the achievement of related industry for many years, and research and design goes out a kind of twin shaft numerical control machine for processing, to overcome above-mentioned defect.

Utility model content

The technical problems to be solved in the utility model is: in order to raise the efficiency and to reduce costs, application lathe has been machined to better selection, and manufactures efficiency and product effect in order further to improve, and needs the introduction of digital control processing.

For addressing the above problem, the utility model discloses a kind of twin shaft numerical control machine for processing, comprise base station, column, slide unit, work box, machine table and numerical control device, it is characterized in that:

The two ends of described base station one side are respectively equipped with vertically extending column, described in two, on column, be connected with two the first slide rails that horizontal parallel arranges, the back side of described slide unit is provided with first chute that can slide along described the first slide rail, described the first slide rail is provided with the first tooth bar extending along its length, in described slide unit, be provided with the first gear engaging with described the first tooth bar and the first motor that drives the first gear to rotate, described the first motor is connected to described numerical control device;

Two second slide rails that are provided with vertical parallel setting above of described slide unit, the back side of described work box is provided with second chute that can slide along described the second slide rail, described the second slide rail is provided with the second tooth bar extending along its length, in described work box, be provided with the second gear engaging with described the second tooth bar and the second motor that drives the second gear to rotate, described the second motor is connected to described numerical control device;

Described work box comprises the body being comprised of casing and cutter chuck assembly;

Described hammer assembly comprises plate body, the lower surface of described plate body is provided with two hammers, be respectively roughing tool chuck and finisher chuck, described roughing tool chuck extends roughing main spindle box downwards, the lower end of described roughing main spindle box is provided with the first clamping head of clamping one roughing tool, described finisher chuck extends fine finishining main spindle box downwards, and the lower end of described fine finishining main spindle box is provided with the second clamping head of clamping one finishing tool.

Wherein: in described casing, be provided with the drive unit that drives described roughing tool and finishing tool rotation, described drive unit is connected to described numerical control device.

Wherein: described drive unit comprises and drives respectively roughing tool and finishing tool to rotate the first drive motors and the second drive motors.

Wherein: described drive unit comprises a drive motors and the driving of drive motors is passed to the transmission device of described roughing tool and finishing tool.

Wherein: described transmission device is belt driver or gear drive.

Known by said structure, twin shaft numerical control machine for processing of the present utility model has following technique effect:

1, realize omnibearing processing, easy to use;

2, structure is relatively simple, and the processing of twin shaft cutter can be provided simultaneously, improves working (machining) efficiency, reduces costs.

Detailed content of the present utility model can obtain by explanation described later and institute's accompanying drawing.

Accompanying drawing explanation

Fig. 1 has shown the structural representation of the utility model twin shaft numerical control machine for processing.

Fig. 2 has shown the structural representation of the utility model cutter chuck assembly.

The specific embodiment

Referring to Fig. 1, shown twin shaft numerical control machine for processing of the present utility model.

Described twin shaft numerical control machine for processing 31 comprises base station 311, column 312, slide unit 32, work box 34, machine table 33 and numerical control device.

The two ends of described base station 311 1 sides are respectively equipped with vertically extending column 312, described in two, on column 312, be connected with two the first slide rails 313 that horizontal parallel arranges, the back side of described slide unit 32 is provided with first chute that can slide along described the first slide rail 313, wherein, described the first slide rail 313 is provided with the first tooth bar extending along its length, in described slide unit 32, be provided with the first gear engaging with described the first tooth bar and the first motor that drives the first gear to rotate, described the first motor is connected to described numerical control device.

Two second slide rails 315 that are provided with vertical parallel setting above of described slide unit 32, the back side of described work box 34 is provided with second chute that can slide along described the second slide rail 315, wherein, described the second slide rail 315 is provided with the second tooth bar extending along its length, in described work box 34, be provided with the second gear engaging with described the second tooth bar and the second motor that drives the second gear to rotate, described the second motor is connected to described numerical control device.

Wherein, the upper surface of described base station 311 is provided with two caulking grooves 314 that vertical described the first slide rail 313 extends in parallel, described machine table 33 comprises turntable 331 and work piece holder 332, the bottom of described turntable 331 is provided with the filler rod that can slide along described caulking groove 314, wherein, in described caulking groove 314, be provided with the 3rd tooth bar extending along its length, in described turntable 331, be provided with the 3rd gear engaging with described the 3rd tooth bar and the 3rd motor that drives the 3rd gear to rotate, described the 3rd motor is connected to described numerical control device.

Optionally, described caulking groove 314 is swallow-tail form caulking groove, and described filler rod is swallow-tail form filler rod.

Described work box 34 comprises the body 340 being comprised of casing 342 and cutter chuck assembly 343.

Referring to Fig. 2, described hammer assembly 343 comprises plate body 3431, the lower surface of described plate body 3431 is provided with two hammers, be respectively roughing tool chuck 3432 and finisher chuck 3433, described roughing tool chuck 3432 extends roughing main spindle box 344 downwards, the lower end of described roughing main spindle box 344 is provided with the first clamping head 346 of clamping one roughing tool 348a, described finisher chuck 3433 extends fine finishining main spindle box 345 downwards, the lower end of described fine finishining main spindle box 345 is provided with the second clamping head 347 of clamping one finishing tool 348b.

Wherein, described finisher chuck 3433 is connected to lubricating system by a lubricating oil pipe 349, so that better lubrication and cooling to be provided.

Wherein, be provided with the drive unit that drives described roughing tool and finishing tool rotation in described casing 342, described drive unit is connected to described numerical control device.

Optionally, described drive unit can comprise and drives respectively roughing tool and finishing tool to rotate the first drive motors and the second drive motors or comprise a drive motors and the driving of drive motors is passed to the transmission device of described roughing tool and finishing tool, optionally, described transmission device is belt driver or gear drive.

Thus, can the control to first, second, third motor and drive unit by numerical control device, realize the processing to workpiece.

Known by said structure, twin shaft numerical control machine for processing tool of the present utility model has the following advantages:

1, realize omnibearing processing, easy to use;

2, structure is relatively simple, and the processing of twin shaft cutter can be provided simultaneously, improves working (machining) efficiency, reduces costs.

It is evident that above description and to record be only for example rather than in order to limit disclosure of the present utility model, application or use.Although described in an embodiment and be described in the drawings embodiment, but the utility model does not limit by accompanying drawing example and the optimal mode thought at present of conduct of describing in an embodiment to implement the specific examples of instruction of the present utility model, scope of the present utility model will comprise any embodiment that falls into description above and appended claim.

Claims (5)

1. a twin shaft numerical control machine for processing, comprises base station, column, slide unit, work box, machine table and numerical control device, it is characterized in that:

The two ends of described base station one side are respectively equipped with vertically extending column, described in two, on column, be connected with two the first slide rails that horizontal parallel arranges, the back side of described slide unit is provided with first chute that can slide along described the first slide rail, described the first slide rail is provided with the first tooth bar extending along its length, in described slide unit, be provided with the first gear engaging with described the first tooth bar and the first motor that drives the first gear to rotate, described the first motor is connected to described numerical control device;

Two second slide rails that are provided with vertical parallel setting above of described slide unit, the back side of described work box is provided with second chute that can slide along described the second slide rail, described the second slide rail is provided with the second tooth bar extending along its length, in described work box, be provided with the second gear engaging with described the second tooth bar and the second motor that drives the second gear to rotate, described the second motor is connected to described numerical control device;

Described work box comprises the body being comprised of casing and cutter chuck assembly;

Described hammer assembly comprises plate body, the lower surface of described plate body is provided with two hammers, be respectively roughing tool chuck and finisher chuck, described roughing tool chuck extends roughing main spindle box downwards, the lower end of described roughing main spindle box is provided with the first clamping head of clamping one roughing tool, described finisher chuck extends fine finishining main spindle box downwards, and the lower end of described fine finishining main spindle box is provided with the second clamping head of clamping one finishing tool.

2. twin shaft numerical control machine for processing as claimed in claim 1, is characterized in that: in described casing, be provided with the drive unit that drives described roughing tool and finishing tool rotation, described drive unit is connected to described numerical control device.

3. twin shaft numerical control machine for processing as claimed in claim 2, is characterized in that: described drive unit comprises and drives respectively roughing tool and finishing tool to rotate the first drive motors and the second drive motors.

4. twin shaft numerical control machine for processing as claimed in claim 2, is characterized in that: described drive unit comprises a drive motors and the driving of drive motors is passed to the transmission device of described roughing tool and finishing tool.

5. twin shaft numerical control machine for processing as claimed in claim 2, is characterized in that: described transmission device is belt driver or gear drive.

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